High Purity MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder, 99%

A new member of ceramic materials is titanium aluminum nitride. This ceramic blends many benefits of both ceramics and metals. Ti4AlN3 powder is known for its excellent mechanical properties at high temperatures. Purity: 99%
Size of the particle: 400mesh or 200mesh

About  Titanium Aluminum Nitride Ti4AlN3 Powder  :

Ti4AlN3 powder is a compound composed of titanium, aluminum and nitrogen. Its chemical formula is Ti3AlN2, with a metastable phase of orthogonal structure. This compound has stable chemical properties, does not react with water and air at room temperature, and has good chemical stability. In addition, Ti4AlN3 powder has a very high melting point of about 2550 ° C, which allows it to remain stable in high-temperature environments.

Physical properties

Density: The density of Ti4AlN3 powder is about 4.1g/cm³, which is higher than metal materials such as titanium and aluminum, which makes it a lightweight and high-strength material.

Hardness: The hardness of Ti4AlN3 powder is very high, reaching more than Hv2000, which makes it an ideal wear-resistant material.

Crystal structure: Ti4AlN3 powder has a metastable phase of orthogonal design, which makes it have good high-temperature stability and mechanical properties.

Thermal conductivity: Ti4AlN3 powder has excellent thermal conductivity and can effectively transfer heat, making the material stable in high-temperature environments.

Electrical properties: Ti4AlN3 powder has good electrical properties, including conductivity and insulation, and can be used to manufacture electronic devices and circuits.

Mechanical properties

Ti4AlN3 powder has excellent mechanical properties; its tensile strength yield strength is higher than titanium aluminum and other metal materials and has good toughness. In addition, Ti4AlN3 powder also has high fatigue and high-temperature strength, which can maintain stable mechanical properties in high-temperature environments. This makes it an ideal material for manufacturing high-performance components such as aerospace engine parts, automotive engine parts, and more.

Technical Parameters of Titanium Aluminum Nickel Powder Ti4AlN3 Powder

Production Method of Titanium Aluminum Nitride Ti4AlN3 Powder：

Thermodynamic reaction method

The thermodynamic reaction method is a commonly used method to prepare ceramic materials. Its basic principle is to produce ceramic materials by reacting metal oxides or halides at high temperatures. The thermodynamic reaction method for preparing Ti4AlN3 powder is to react titanium, aluminum and nitrogen oxides or halides at high temperatures to make Ti4AlN3 powder. The specific steps are as follows:

Ingredients: Titanium, aluminum and nitrogen oxides or halides are mixed proportionally to make a mixture.

High-temperature thermodynamic reaction: The mixture is heated to high temperatures, usually above 1500 ° C. The tincture undergoes a high-temperature thermodynamic response to form a Ti4AlN3 powder.

Collection: The generated Ti4AlN3 powder is collected and post-processed, such as crushing, screening, etc.

The advantages of the thermodynamic reaction method are a simple preparation process, low cost and easy industrial production. However, this method also has some disadvantages, such as using high-temperature equipment. The reaction process will produce harmful gases.

Mechanical alloying method

Mechanical alloying is a standard method to prepare intermetallic compounds. The basic principle is to mechanically stir the metal powder at high temperatures to make it react and produce intermetallic compounds. The mechanical alloying method for preparing Ti4AlN3 powder is to mix the titanium, aluminum and nitrogen powder in a particular proportion and then mechanically stir it at high temperature to react and produce Ti4AlN3 powder. The specific steps are as follows:

Ingredients: The titanium, aluminum and nitrogen powder are mixed proportionately to make a mixed powder.

High-temperature mechanical alloying: The mixed powder is loaded into a high-temperature furnace for high-temperature sintering, usually at temperatures above 1500 ° C. At high temperatures, the mixed powder reacts mechanically to produce Ti4AlN3 powder.

Collection: The generated Ti4AlN3 powder is collected and post-processed, such as crushing, screening, etc.

The advantage of mechanical alloying is that high-purity Ti4AlN3 powder can be prepared while avoiding high-temperature equipment. However, this method has disadvantages, such as a long preparation cycle and high cost.

Applicationes of Titanium Aluminum Nitride Ti4AlN3 Powder  :

Aerospace field

In the aerospace field, Ti4AlN3 powder is widely used in manufacturing aerospace engine parts and spacecraft structural parts due to its excellent mechanical properties and high-temperature stability. Its high strength, hardness, reasonable wear and corrosion resistance make it an ideal material for manufacturing aerospace components. By using Ti4AlN3 powder, the performance and reliability of aerospace equipment can be improved while reducing manufacturing costs. In addition, Ti4AlN3 powder can also be used to manufacture critical components such as seals and fasteners in the aerospace field to meet their special work needs.

The nuclear industry

Ti4AlN3 powder is widely used in the nuclear industry to manufacture nuclear reactor parts. Its high strength, hardness, reasonable wear and corrosion resistance make it an ideal material for manufacturing atomic reactor components. In addition, Ti4AlN3 powder can also be used to manufacture critical components such as shields and seals in nuclear reactors, which can improve their high-temperature resistance and sealing performance. By using Ti4AlN3 powder, the performance and reliability of atomic industry equipment can be enhanced while reducing manufacturing costs.

The electronic field

Its good electrical conductivity and high-temperature stability make it an ideal material for manufacturing electronic devices and circuits. By using Ti4AlN3 powder, the performance and reliability of electronic devices can be improved while reducing manufacturing costs. In addition, Ti4AlN3 powder can also be used to manufacture high-temperature electronic devices and circuits to meet the needs of high-temperature environments.

Biomedical field

In the biomedical field, Ti4AlN3 powder is widely used to manufacture biomedical materials due to its good biocompatibility and bioactivity. Its good biocompatibility and bioactivity make it an ideal material for manufacturing biomedical devices such as artificial joints, dental implants and bone repair materials. By using Ti4AlN3 powder, the performance and reliability of medical devices can be improved while reducing manufacturing costs. In addition, Ti4AlN3 powder can also be used to manufacture biomedical reagents such as drug carriers and biological detection reagents, which can meet its application needs in the biomedical field.

Titanium Aluminum Nitride Ti4AlN3 Pulver Storage Conditions
Ti4AlN3 powder's dispersion and usage performance will be affected by dampness. Titanium Aluminum Nitride Ti4AlN3 Ti4AlN3 should therefore be kept dry and sealed in vacuum bags. Titanium Aluminum Nitride Ti4AlN3 is not recommended to be exposed to any air. Ti4AlN3 powder must be kept away from stress.

Packing and Shipping Titanium Aluminum Nitride, Ti4AlN3 powder :
There are many options for packing depending on the amount of Titanium Aluminum Nitride, Ti4AlN3 powder.
Packing of Titanium Aluminium Nitride Ti4AlN3 in powder form: You can vacuum pack 100g, 500g, 1kg/bag or 25kg/barrel. Or as you request.
Delivery of titanium aluminum nitrate Ti4AlN3 in powder form: Once payment has been received, items may be shipped by sea or air as soon as they are possible.

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